Recreating blood-brain barrier physiology and structure on chip: A novel neurovascular microfluidic bioreactor
Published 2015 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Recreating blood-brain barrier physiology and structure on chip: A novel neurovascular microfluidic bioreactor
Authors
Keywords
-
Journal
Biomicrofluidics
Volume 9, Issue 5, Pages 054124
Publisher
AIP Publishing
Online
2015-10-27
DOI
10.1063/1.4934713
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Collagen-based brain microvasculature model in vitro using three-dimensional printed template
- (2015) Jeong Ah Kim et al. Biomicrofluidics
- Biology coming full circle: Joining the whole and the parts
- (2015) John P Wikswo et al. EXPERIMENTAL BIOLOGY AND MEDICINE
- ROCK1 and 2 differentially regulate actomyosin organization to drive cell and synaptic polarity
- (2015) Karen A. Newell-Litwa et al. JOURNAL OF CELL BIOLOGY
- Measuring direct current trans-epithelial electrical resistance in organ-on-a-chip microsystems
- (2015) Mathieu Odijk et al. LAB ON A CHIP
- PARK2 patient neuroprogenitors show increased mitochondrial sensitivity to copper
- (2015) Asad A. Aboud et al. NEUROBIOLOGY OF DISEASE
- Enhanced Neurite Outgrowth of Human Model (NT2) Neurons by Small-Molecule Inhibitors of Rho/ROCK Signaling
- (2015) Frank Roloff et al. PLoS One
- Permeability Analysis of Neuroactive Drugs Through a Dynamic Microfluidic In Vitro Blood–Brain Barrier Model
- (2014) R. Booth et al. ANNALS OF BIOMEDICAL ENGINEERING
- The relevance and potential roles of microphysiological systems in biology and medicine
- (2014) John P Wikswo EXPERIMENTAL BIOLOGY AND MEDICINE
- Blood–brain barrier models: in vitro to in vivo translation in preclinical development of CNS-targeting biotherapeutics
- (2014) Danica B Stanimirovic et al. Expert Opinion on Drug Discovery
- A novel manganese-dependent ATM-p53 signaling pathway is selectively impaired in patient-based neuroprogenitor and murine striatal models of Huntington's disease
- (2014) Andrew M. Tidball et al. HUMAN MOLECULAR GENETICS
- Magnetic field enhanced convective diffusion of iron oxide nanoparticles in an osmotically disrupted cell culture model of the blood–brain barrier
- (2014) Zhizhi Sun et al. International Journal of Nanomedicine
- An in vitro blood–brain barrier model combining shear stress and endothelial cell/astrocyte co-culture
- (2014) Yukio Takeshita et al. JOURNAL OF NEUROSCIENCE METHODS
- Neurotrophic Requirements of Human Motor Neurons Defined Using Amplified and Purified Stem Cell-Derived Cultures
- (2014) Nuno Jorge Lamas et al. PLoS One
- A new dynamic in vitro modular capillaries-venules modular system: Cerebrovascular physiology in a box
- (2013) Luca Cucullo et al. BMC NEUROSCIENCE
- Engineering Challenges for Instrumenting and Controlling Integrated Organ-on-Chip Systems
- (2013) J. P. Wikswo et al. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING
- Scaling and systems biology for integrating multiple organs-on-a-chip
- (2013) John P. Wikswo et al. LAB ON A CHIP
- In vitro Permeability Study of CNS-Active Diterpenes from Sideritis spp. Using Cellular Models of Blood-Brain Barrier
- (2013) Elena González-Burgos et al. PLANTA MEDICA
- Astroglial cells regulate the developmental timeline of human neurons differentiated from induced pluripotent stem cells
- (2013) Xin Tang et al. Stem Cell Research
- Differentiation from human pluripotent stem cells of cortical neurons of the superficial layers amenable to psychiatric disease modeling and high-throughput drug screening
- (2013) C Boissart et al. Translational Psychiatry
- Quantitative Analysis of Molecular Absorption into PDMS Microfluidic Channels
- (2012) Jack D. Wang et al. ANNALS OF BIOMEDICAL ENGINEERING
- BBB ON CHIP: microfluidic platform to mechanically and biochemically modulate blood-brain barrier function
- (2012) L. M. Griep et al. BIOMEDICAL MICRODEVICES
- Hurdles with Using In Vitro Models to Predict Human Blood-brain Barrier Drug Permeability: A Special Focus on Transporters and Metabolizing Enzymes
- (2012) Ramzi Shawahna et al. CURRENT DRUG METABOLISM
- Organs-on-chips: breaking the in vitro impasse
- (2012) Andries D. van der Meer et al. Integrative Biology
- SyM-BBB: a microfluidic blood brain barrier model
- (2012) Balabhaskar Prabhakarpandian et al. LAB ON A CHIP
- Human cerebral cortex development from pluripotent stem cells to functional excitatory synapses
- (2012) Yichen Shi et al. NATURE NEUROSCIENCE
- Directed differentiation of human pluripotent stem cells to cerebral cortex neurons and neural networks
- (2012) Yichen Shi et al. Nature Protocols
- Organs-on-a-Chip: A Focus on Compartmentalized Microdevices
- (2011) Christopher Moraes et al. ANNALS OF BIOMEDICAL ENGINEERING
- Microfabricated scaffold-guided endothelial morphogenesis in three-dimensional culture
- (2011) Yuxin Liu et al. BIOMEDICAL MICRODEVICES
- Electrical impedance spectroscopy measurements using a four-electrode configuration improve on-line monitoring of cell concentration in adherent animal cell cultures
- (2011) E. Sarró et al. BIOSENSORS & BIOELECTRONICS
- The role of shear stress in Blood-Brain Barrier endothelial physiology
- (2011) Luca Cucullo et al. BMC NEUROSCIENCE
- Modelling the Neurovascular Unit and the Blood-Brain Barrier with the Unique Function of Pericytes
- (2011) Elodie Vandenhaute et al. CURRENT NEUROVASCULAR RESEARCH
- Cytokine Signaling Modulates Blood-Brain Barrier Function
- (2011) Weihong Pan et al. CURRENT PHARMACEUTICAL DESIGN
- Case study: adapting in vitro blood–brain barrier models for use in early-stage drug discovery
- (2011) Elodie Vandenhaute et al. DRUG DISCOVERY TODAY
- Stabilization of brain microvascular endothelial barrier function by shear stress involves VE-cadherin signaling leading to modulation of pTyr-occludin levels
- (2011) Tony G. Walsh et al. JOURNAL OF CELLULAR PHYSIOLOGY
- Development of a three-dimensional, all-human in vitro model of the blood–brain barrier using mono-, co-, and tri-cultivation Transwell models
- (2011) Kathryn Hatherell et al. JOURNAL OF NEUROSCIENCE METHODS
- In Vitro Blood–Brain Barrier Models: Current and Perspective Technologies
- (2011) Pooja Naik et al. JOURNAL OF PHARMACEUTICAL SCIENCES
- Pericyte-derived Glial Cell Line-derived Neurotrophic Factor Increase the Expression of Claudin-5 in the Blood–brain Barrier and the Blood-nerve Barrier
- (2011) Fumitaka Shimizu et al. NEUROCHEMICAL RESEARCH
- Co-culture Based Blood-brain Barrier In Vitro Model, a Tissue Engineering Approach using Immortalized Cell Lines for Drug Transport Study
- (2010) Zhiqi Zhang et al. APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY
- Ascorbic acid prevents increased endothelial permeability caused by oxidized low density lipoprotein
- (2010) James M. May et al. FREE RADICAL RESEARCH
- Astrocytes and Pericytes Differentially Modulate Blood—Brain Barrier Characteristics during Development and Hypoxic Insult
- (2010) Abraham Al Ahmad et al. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM
- Irreversible, direct bonding of nanoporous polymer membranes to PDMS or glass microdevices
- (2010) Kiana Aran et al. LAB ON A CHIP
- High and Low Molecular Weight Fluorescein Isothiocyanate (FITC)–Dextrans to Assess Blood-Brain Barrier Disruption: Technical Considerations
- (2010) Angelika Hoffmann et al. Translational Stroke Research
- Transfer of ascorbic acid across the vascular endothelium: mechanism and self-regulation
- (2009) James M. May et al. AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
- Highly efficient neural conversion of human ES and iPS cells by dual inhibition of SMAD signaling
- (2009) Stuart M Chambers et al. NATURE BIOTECHNOLOGY
- A new blood–brain barrier model using primary rat brain endothelial cells, pericytes and astrocytes
- (2008) Shinsuke Nakagawa et al. NEUROCHEMISTRY INTERNATIONAL
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started